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Mechanics Of A Super Lift

ALE 5000-Ton Crane – World Record Lift of Six

Derricks – Lifted Weight 1.627 tons @ 174 feet radius


Introduction

JOSEPH S. COLLINS

Joseph (Joe) Collins is the Heavy Lift Manager for Becht

Engineering Co., Inc. He is providing Consulting and Design

Services for Lifting and Transport of process equipment,

machinery, chemical, refining and nuclear vessels and

components.

His duties include consulting to clients using the world’s

largest cranes and super heavy lift projects. In addition, he is

assisting major companies in updating their crane and

rigging policies to assure compliance with the new OSHA

crane rule.


Introduction

Collins has over 40 years experience in Heavy Industrial

Construction, specializing in Critical Lift Planning and

Execution, based on his long-term career with Zachry

Construction Corporation (ZCC).

He currently serves as Vice President of the Board of

Directors for the National Commission for the Certification

of Crane Operators (NCCCO).

Mr. Collins served as a member of the Cranes and Derrick

Advisory Committee (C-DAC) to OSHA, which wrote and

delivered the current draft of the new OSHA Crane Safety

Standard.


Definition of a Super Lift

There is no definition for a Super Lift in any current

Standard.

However, many companies that make extreme lifts

within their facilities have coined the term and

created their own definitions.

The intent is to minimize risk by requiring a

comprehensive engineered lift plan followed by a

third party review of the plan.



The definitions vary between companies but all are

intended to achieve the same result.

This system of checks and balances has proven

value and has resulted in the safe lifting of

massive objects worldwide.

An accident with these heavy loads and giant

cranes would be catastrophic both to human life

and the facilities.



Some criteria in the definitions are:

• Lifting with a crane rated at 1000-Ton Capacity

or higher

• Lifting with a crane equipped with capacity

enhancing attachments

• Any lift that presents a risk of catastrophic

damage to human life or the facility


Presentation Outline

• Ground Bearing Pressure

• Crane Suitability

• Rigging Assemblies

• Lift Procedures

• Personnel Qualifications

• Heavy Lift Manuel


Ground Bearing Pressure and

Load Distribution Analysis

• Soil Analysis

• Load Distribution Systems (foundations)

• Underground Structures and Cavities




Soil Analysis

– The allowable ground bearing capacity has to be

investigated and confirmed by an experienced

soils engineering firm.


Sample Soil Report


Sample Soil Report

The site surface cover generally consisted of gravel. The soil profile generally

consisted of lean clay with varying amounts of sand to depths of about 13.5 feet

underlain by fine to medium sand to below the boring termination depths.

Groundwater was encountered at depths of 13.5 feet in the test boring at the time

of field exploration.

Based on the subsurface conditions encountered and expected loads, shallow

foundations could be used to support the proposed structures. Foundation

design recommendations for the proposed structures are presented in the

following table.

DESCRIPTION VALUE

Foundation Type Shallow foundation

Bearing Material 6 inches of ODOT Type “A” crushed aggregate base2,3 over undisturbed native

soil

Net Allowable Bearing Pressure1

2,500 psf

Total Estimated Settlement 1 inch

Estimated Differential Settlement Approximately 1/2 of total settlement

1. The recommended net allowable bearing pressure is the pressure at the base of the

shallow foundation in excess of the adjacent overburden pressure. Assumes any

unsuitable materials, if encountered, will be undercut and replaced with engineered fill.




• Foundations

– Depending on the type of lift equipment, cranes

or gantry systems, the foundation is designed

based on the allowable ground pressure.

– The foundations may consist of:

• piling with a concrete cap

• wood and or steel crane mats

• compacted fill

• all of the above


Sample Ground Bearing Pressures

• Terex CC6800 – 1200-Ton Capacity

– GBP = 12,700 psf

• Liebherr LTM 11200 – 1200-Ton Capacity

– single outrigger force 418,000 lbs.

• Mammoet PTC Ringer – 3500-Ton Capacity

– GBP = 3,400 psf


2000-ton Gantry System (Mammoet)


Sample Foundation Design

with Piles and Concrete Cap



with Piles and Concrete Cap


Piling Installation


3500-Ton Ring Crane (Mammoet)



3500 psf


Foundation Design 3-D Model


Sample Ground Pressure Calculation


Underground Structures

A thorough investigation must be done to identify

underground structures or buried cavities under or

near the crane foundation.

Some good sources are:

• Site Owner records and drawings

• Sounding with sonar equipment

• These hazards are some times exposed during

excavation while improving the ground for the

crane foundation


Proof Test the Foundation

Becht Engineering highly recommends proof

testing the foundation

• Static Test – Load the foundation with enough

weight to simulate the ground bearing pressure

the crane will apply.

– This can be done with the crane counterweights

– Measure the foundation elevation before, during

and after the load is applied


Proof Test the Foundation

• Static Test the Foundation

– Select a test weight that, at a given boom angle,

will simulate the ground bearing pressure applied

by the crane

– The test weight only needs to be raised until it is

freely suspended

– Measure the the foundation elevation before,

during and after the test lift is conducted

Any settlement more than the engineered allowable

is unacceptable and the foundation must be

modified


Foundation Failure


Crane Suitability

• Crane capacity and proper configuration

• Assembly and Disassembly Procedures

• Inspection Records

• Maintenance Records


ALE 5000-Ton Crane


Crane Capacity

and Proper Configuration

The new cranes with super lift counterweights are

often misunderstood by the lay person.

They have to achieve somewhere between 80 and

90 percent of capacity to float the auxiliary

counterweight.

For some time now, the facility owners wanted to

limit lifts to 75 percent of capacity. This is a good

idea for conventional cranes but does not

necessarily work for super lift cranes.


Crane Capacity


Selection of the right crane and attachments is

critical.

• The super cranes have a large foot print and

adequate room is required

• Erecting the boom is a major consideration as

they can be 400 plus feet long


Crane Capacity


TC 36000 – 2500-Ton VersaCrane

Deep South Crane and Rigging


Inspection Records

Review the inspection records of the crane

• Look for recurring problems that have been

addressed multiple times

• Use this information to zoom in on problem

areas while the crane is being erected and

during the final inspection


Maintenance Records

Review the maintenance records of the crane

• Look for recurring problems that have been

addressed multiple times

• Use this information to assure a specific spare

parts are on hand

• Assure commonly used spare parts are on hand


Rigging Assemblies

• Check Rigging Configurations for Capacity

• Analyze Rigging Configuration for Stability

• Analyze Below the Hook Lifting Devices

• Analyze Points of Attachment

• Assure Compliance with Current Regulations


2000-Ton Capacity Rigging System

(Versabar)


Rigging System (Versabar)


Rigging Detail (Holloway Houston)


Proof Testing 1500-Ton Lifting Lug (Holloway Houston)


Proof Testing 1500-Ton Lifting Lug

(Holloway Houston)


Compliance with Current Standards

• OSHA 1926.1400

Subpart CC

– Cranes and Derricks in

Construction

• ASME BTH-1

– Design of Below-the-

Hook Lifting Devices

• ASME B30.5

– Mobile and Locomotive

Cranes

• ASME B30.9

– Slings

• ASME B30.10

– Hooks

• ASME B30.20

– Below- the –Hook

Lifting Devices

• ASME B30.26

– Rigging Hardware


Lift Procedures

• Check All Clearances

• Confirm all Radii are Within Crane Capacity

• Confirm Safe Wind Speed Limits

• Confirm that Rigging Personnel can Safely

Attach the Rigging, Land the Load and

Disconnect the Rigging


Check All Clearances

During the planning phase, check clearances for:

• Load to Boom

• Load to Obstructions

• Boom to Obstructions

• Remaining Head Room

• Counterweight to Obstructions


Check All ClearancesMammoet PTC 3500-Ton












Confirm all Radii are

Within Crane Capacity

Physically measure all radii in the field

• A tape measure is not much use due to

obstructions

• Seek assistance from experienced field

surveyors


Confirm Safe Wind Speed Limits

Wind Is Your Worst Enemy

• Refer to the crane manufacturers wind limit

instructions

• Calculate the wind sail area of the load

• Determine what wind speed will move the load

Set the wind speed limit to the lower value

Keep in mind that even if the crane can safely lift

the load, the riggers may not be able to safely

control and/or land the load.


Confirm Personnel Safety

Confirm that Rigging Personnel can Safely Attach

the Rigging, Land the Load and Disconnect the

Rigging

• Is scaffolding needed and will it be erected for

the riggers to work from?

• Will the scaffolding obstruct the load path?

• Will a crane suspended personnel platform be

required to disconnect the rigging?

These considerations have to be included in the

plan


Sample Scaffolding


Confirm Personnel Qualifications

• Review and Confirm the Crane Operator

Qualifications/Certifications

• Review and Confirm the Lift Director

Qualifications

• Review and Confirm the Rigging Crew

Qualifications


Heavy Lift Manual

• Prepare a Comprehensive Lift

Manuel containing al relevant

support documents pertaining

to the lift plan

• The manual will be a living

document and will be modified

as minor revisions are made to

the overall plan.


Heavy Lift Manual

The Heavy Lift Manual is intended to serve as a

resource for all parties with responsibilities

regarding the lift.

It eliminates errors by having everyone working

from the same play book.

It serves as a legal document defendable in a

Court of Law.


Heavy Lift Manual

Sample Table of Contents

• Administration Documents

– Contractor Organizational Charts and Responsibilities

• Civil Engineering

– Geotechnical Report

– Site Survey

– Underground Structures

– Crane Foundation Drawings with Engineering Calculations

• Rigging Engineering

– Rigging Diagrams, Load Calculations, Lift Plans

– Rigging Certifications

– Wind Speed Limits

– Points Of Attachment Design Calculations and NDT Reports

– Test Lift Plan

– Personnel Lift Plan


Heavy Lift Manual


• Crane Assembly/Disassembly Procedures

– Crane Manufacturers Detailed Assembly Instructions

– Detailed Erection Procedure Including Elevation and

Plan View Drawings

– A/D Checklist

– A/D Critical/Engineered Lifts

– Assembly Crane Configuration, Capacity Charts and

GBP Calculations

– Assembly Crane GBP Mitigation Plans

– Rigging Certifications

– Plan for Personnel to Access Elevated Work


Heavy Lift Manual


• Crane Inspection Records

– Annual Inspections Records

– Frequent Inspection Records (pre-shift and or daily)

– A/D Inspection Records

– Wire Rope Inspection Records

– Boom Pendent Strap Inspection Records

– Maintenance Records

• Repair Summery

• Spare Parts List (strongly advised)


Heavy Lift Manual


• Safety Execution Plan

• Population Control Plan

• Risk Assessment, Controls & Mitigations

• Contingency Plans

• Emergency Procedures

• Incident Notification Plan

• Permits

• Lessons Learned


Third Party Review

Engineering Review

A formal engineering is highly recommended.

In the coarse of our reviews, we often discover and

correct small mistakes in the engineering plans.

It is important to remember that most crane

accidents are not the result of a single mistake but

are the combination of several factors that come

together at one time.


Third Party Review

The third party engineering review not

only eliminates mistakes but it also

validates the lift plan in the event it has

to be defended in court.


Third Party Field Monitoring

We also highly recommend that you have the

third party monitor the crane erection and lifts.

This is to assure the plan is followed accordingly

and the inevitable field changes to the plan are

properly managed.

Often we find the rigging crew is so busy with

their work that they can easily miss a step, permit

or simply select the wrong sling or shackle from a

pile of rigging.


Thank You

Date post:	19-Aug-2018
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